TIMBER-CONCRETE COMPOSITE RIBBED SLABS WITH HIGH-PERFORMANCE FIBRE-CONCRETE

Authors

  • Karina Buka-Vaivade Department of Structural Engineering, Riga Technical University (LV)
  • Dmitrijs Serdjuks Department of Structural Engineering, Riga Technical University (LV)
  • Janis Sliseris Department of Structural Engineering, Riga Technical University (LV)
  • Andrejs Podkoritovs Department of Structural Engineering, Riga Technical University (LV)
  • Raimonds Ozolins Department of Structural Engineering, Riga Technical University (LV)

DOI:

https://doi.org/10.17770/etr2021vol3.6551

Keywords:

finite element method, high-performance fibre-reinforced concrete, ribbed slab, timber-concrete composite, wood-concrete composite

Abstract

Composite of such renewable material as timber and the most popular man-made material as concrete offers many benefits. Such of them are high load-bearing capacity with low dead load and increased structural bending stiffness. Higher specific strength of high-performance concrete in comparison with ordinary concrete ensures more efficient use of the material. Addition of fibres can reduce the fragility and autogenous shrinkage cracks of high-performance concrete and makes it possible to design thinner layers of concrete for timber-concrete composite structures. Ribbed slabs as solution for the floor slabs, allows to reduce material consumption and to integrate engineering communications into the structures. The current study focuses on determining the effect of the use of high-performance fibre reinforced concrete for timber-concrete composite ribbed slabs with adhesive connection between layers, as the most effective connection type for composite action. The effect of the use of high-performance fibre reinforced concrete is determined by comparison of mid-span displacements of the ribbed slabs numerical models. Three-dimensional finite element models of timber and ordinary concrete composite ribbed slab and high-performance fibre reinforced concrete with additional longitudinal reinforcement ribbed slab are validated by experiment data. Developed numerical models makes it possible to predict the dependence of applied load on mid-span displacement in three-point bending with sufficient precision. Obtained results showed, that replacement of ordinary concrete layer by high-performance fibre reinforced concrete in timber-concrete composite ribbed slab with adhesive connection up to 1.68 times decrease vertical mid-span displacements.

 

Supporting Agencies
This research was supported by Riga Technical University's Doctoral Grant programme and Latvian Council of Science funded project “Method of correlation of coaxial accelerations in 6-D space for quality assessment of structural joints (COACCEL)” (Nr. lzp-2020/1-0240).

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Published

2021-06-16

How to Cite

[1]
K. Buka-Vaivade, D. Serdjuks, J. Sliseris, A. Podkoritovs, and R. Ozolins, “TIMBER-CONCRETE COMPOSITE RIBBED SLABS WITH HIGH-PERFORMANCE FIBRE-CONCRETE”, ETR, vol. 3, pp. 40–44, Jun. 2021, doi: 10.17770/etr2021vol3.6551.